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|  MIL-C-48610B(AR)
3.3.3 15 volt sense and overcurrent. With the input power, item 2.2 of
table I, and the 240 ohm load, item 1.10 of table I, applied as specified
therein and J1-9 connected to J1-30, the output voltages shall be as specified
in table III and figure 1. (See 4.6.2.3)
3.3.4 Q-switch drive. With the input power, item 2.2 of table I,
and the FIRE, item 3.1 of table I, applied as specified and the input power
item 2.3 of table 1, applied at 28 22 Vdc between pins J1-31 (+) and J1-30
(-)2 the output pulse train between J1-22, J2-24 and J1-30 (rtn) shall be as
specified on figure 2. With the input power, item 2.3 of table I, applied at
41.5 0.5 Vdc, the output signals between pins J1-22, J1-24 and J1-30 (rtn)
shall be 1 +1 Vdc. (See 4.6.2.4)
3.3.5 Sync signals A and B. With the input power, item 2.2 of table I,
applied as specified, the output signals between pins J1-21, J1-23, and J1-30
(rtn) shall be as specified in figure 3. (See 4.6.2.5)
3.3.6 Q-switch drive regulator. With the input power, item 2.4 of table
I, applied specified, J1-15 connected to J1-16 and the input power, item
2.3 of table 1, applied at 31 31 Vdc between pins J1-12 (+) and J1-20 (-), the
output voltage between pins J1-13 and J1-20 (rtn) shall be 26.4 3.0 Vdc.
With the interconnection removed from J1-IS and J1-16 and +5 Vdc, item 2.1 of
table 1, applied between pins J1-14 (+) and J1-20 (-), the output voltage
between J1-13 and J1-20 (rtn) shall be 1 +1 Vdc. (See 4.6.2.6)
3.4 Environmental.
3.4.1 Shock. The assembly shall be capable of operating as specified
herein after exposure under the conditions of 3.1.3 to three half sine wave
shock pulses of 40 4 gravity units (g) for a duration of 18 + 3 milliseconds
(msec) applied in each direction along three mutually perpendicular axes. In
addition, the assembly shall be capable of withstanding three half sine wave
shock pulses of 100.0 10.0 g for a duration of 1.5 0.2 msec applied in
each direction along three mutually perpendicular axes. (See 4.6.3.1)
3.4.2 Vibration. The assembly shall be capable of operating as specified
herein after exposure under the conditions of 3.1.3 to the profile of figure
1. Duration of exposure shall be not less than 80 minutes in each of three
mutually perpendicular axes. (See 4.6.3.2)
3.4.3 Operating temperature. The assembly shall be capable of operating
as specified herein over the operating temperature range of -25F to
+140F. (See 4.6.3.3, 4.6.3.4 and 4.6.3.5)
3.4.4 Storage temperature. The assembly shall be capable of operating as
specified herein after exposure to storage temperatures ranging from -65F
to +160F. (See 4.6.3.3, 4.6.3.4 and 4.6.3.5)
3.4.4 Storage temperature.
The assembly shall be capable of operating
as specified herin after exposure to storage temperatures ranging from -65
to +160F. (See 4.6.3.3, 4.6.3.4 and 4.6.3.5)
8
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